Radical cyclization, also

Other transformations of the radicals are also possible. For example, the 5-hexenyl radical partially cyclizes in competition with coupling ... 

Vinyl radicals can also participate in 6-exo cyclizations. In pioneering work, Stork and his group at Columbia University showed that stereoisomeric vinyl bromides 20 and 21 (see Scheme 3) can be converted to cyclohexene 22.7 The significance of this finding is twofold first, the stereochemistry of the vinyl bromide is inconsequential since both stereoisomers converge upon the same product and second, the radical cyclization process tolerates electrophilic methoxycarbonyl groups. The observation that the stereochemistry of the vinyl bromide is inconsequential is not surprising because the barrier for inversion of most vinyl radicals is very low.8 This important feature of vinyl radical cyclization chemistry is also exemplified in the conversion of vinyl bromide 23 to tricycle 24, the key step in Stork s synthesis of norseychellanone (25) (see Scheme 4).9 As in... 

Sequential radical cyclizations are also featured in an efficient and clever synthesis of the cedrane framework 83 (see Scheme 15).30 Compound 81, the product of a regioselective Diels-Alder reaction between isoprene (79) and nitroethylene (80), participates in a nitroaldol reaction (Henry reaction) with 5-methyl-4-hexenal in the presence of a basic resin to give 82. Because the nitro group in... 

Carbon-centered radicals generated by Barton s thiohydroxamate method can also participate in ring-forming reactions (see Scheme 26).52b,s3 For example, irradiation of 129 results in the formation of compound 130 (82% yield). The outcome of this transformation is reminiscent of Stork s elegant radical cyclization/trapping processes (see Schemes 7 and 8), in that/botn alkene carbon atoms have become functionalized. / I... 

The submitters report that this free radical cyclization was also effected by heating a solution of 5.00 g. (0.026 mole) of ethyl (E)-2-cyano-6-octenoate and 1.25 g. (0.0086 mole) of di-ferf-butyl peroxide [bis(l,l-dimethylethyl)peroxide] in 500 ml. of freshly distilled cyclohexane at 140° in an autoclave for 30 hours. The solution was concentrated and the residue was distilled to yield 3.4 g. (68%) of ethyl l-cyano-2-methylcyclohexanecarboxylate. 

The (TMS)3Si radical addition to terminal alkenes or alkynes, followed by radical cyclization to oxime ethers, were also studied (Reaction 50). The radical reactions proceeded effectively by the use of triethylborane as a radical initiator to provide the functionalized pyrrolidines via a carbon-carbon bond-forming process. Yields of 79 and 63% are obtained for oxime ethers connected with an olefin or propargyl group, respectively. 

The N,0- and N,S-heterocyclic fused ring products 47 were also synthesized under radical chain conditions (Reaction 53). Ketene acetals 46 readily underwent stereocontrolled aryl radical cyclizations on treatment with (TMSlsSiH under standard conditions to afford the central six-membered rings.The tertiary N,0- and N,S-radicals formed on aryl radical reaction at the ketene-N,X(X = O, S)-acetal double bond appear to have reasonable stability. The stereoselectivity in hydrogen abstractions by these intermediate radicals from (TMSlsSiH was investigated and found to provide higher selectivities than BusSnH. 

Examples of the intermolecular C-P bond formation by means of radical phosphonation and phosphination have been achieved by reaction of aryl halides with trialkyl phosphites and chlorodiphenylphosphine, respectively, in the presence of (TMSlsSiH under standard radical conditions. The phosphonation reaction (Reaction 71) worked well either under UV irradiation at room temperature or in refluxing toluene. The radical phosphina-tion (Reaction 72) required pyridine in boiling benzene for 20 h. Phosphinated products were handled as phosphine sulfides. Scheme 15 shows the reaction mechanism for the phosphination procedure that involves in situ formation of tetraphenylbiphosphine. This approach has also been extended to the phosphination of alkyl halides and sequential radical cyclization/phosphination reaction. ... 

Intramolecular enone-alkene cycloadditions are also possible. In the case of (3-(5-pentenyl) substituents, there is a general preference for exo-type cyclization to form a five-membered ring.195 This is consistent with the general pattern for radical cyclizations and implies initial bonding at the (3-carbon of the enone. 

Osmium tetroxide used in combination with sodium periodate can also effect alkene cleavage.191 Successful oxidative cleavage of double bonds using ruthenium tetroxide and sodium periodate has also been reported.192 In these procedures the osmium or ruthenium can be used in substoichiometric amounts because the periodate reoxidizes the metal to the tetroxide state. Entries 1 to 4 in Scheme 12.18 are examples of these procedures. Entries 5 and 6 show reactions carried out in the course of multistep syntheses. The reaction in Entry 5 followed a 5-exo radical cyclization and served to excise an extraneous carbon. The reaction in Entry 6 followed introduction of the allyl group by enolate alkylation. The aldehyde group in the product was used to introduce an amino group by reductive alkylation (see Section 5.3.1.2). 

Moreover, the reaction with Y = OCH3 and the stereochemical control of analogous hex-5-enyl radical cyclizations has also been studied. This method constitutes part of a synthetic route from carbohydrates to optically active carbocycles.[74],[75]... 

The construction of the central ring can also be accomplished by a radical cyclization of a non-fused heterobiaryl system composed of two six-membered heterocycles and linked by a two-atom bridge. An example is the synthesis of 106 from the bromo derivative 105 in the presence of AIBN and Bu3SnH (Equation 8) <1999TL4073>. 

Cobaloxime(I) generated by the electrochemical reductions of cobaloxime(III), the most simple model of vitamin Bi2, has been shown to catalyze radical cyclization of bromoacetals.307 Cobalt(I) species electrogenerated from [ConTPP] also catalyze the reductive cleavage of alkyl halides. This catalyst is much less stable than vitamin Bi2 derivatives.296 It has, however, been applied in the carboxylation of benzyl chloride and butyl halides with C02.308 Heterogeneous catalysis of organohalides reduction has also been studied at cobalt porphyrin-film modified electrodes,275,3 9-311 which have potential application in the electrochemical sensing of pollutants. 

Methylenetetrahydrofurans can also be realized by an intramolecular radical cyclization of bromoalkynes utilizing indium(I) iodide as a radical initiator <06TL2859>. 3-Diiodomethylenetetrahydrofurans were also prepared from l,to-diiodo-l-alkynes in the presence of l-hexynyllithium<06CC638>. 

TMC ATRA reactions can also be conducted intramolecularly when alkyl halide and alkene functionalities are part of the same molecule. Intramolecular TMC ATRA or atom transfer radical cyclization (ATRC) is a very attractive synthetic tool because it enables the synthesis of functionalized ring systems that can be used as starting materials for the preparation of complex organic molecules [10,11], Furthermore, halide functionality in the resulting product can be very beneficial because it can be easily reduced, eliminated, displaced, converted to a Grignard reagent, or if desired serve as a further radical precursor. The use of copper-mediated ATRC in organic synthesis has been reviewed recently and some illustrative examples are shown in Scheme 3 [10,11,31,32,33],... 

A new entry to exocyclic dienes was reported by Sha who uncovered that a radical cyclization of the vinyl iodide 100 can lead to the formation of an exocyclic dienes fused with a tetrahydrofuran ring. The cyclization is proposed to proceed in a 5-(n-exo)-exo-dig fashion <00OL2011>. 3,4-Disubstituted tetrahydrofurans can also be constructed via the cyclization of O-stannyl ketyls and allylic 0-stannyI ketyls onto electron-rich or electron-poor alkenes <00TL8941>. 

The radical cyclization can also involve an acrylate to obtain C02Me-substituted indolizine derivatives 57 (Scheme 18) <2000TL10181>. 

Partially saturated derivatives can also be prepared through aryl radical cyclization of A-2-halobenzoyl cyclic ketene-iVA-acetals <2005TL3801>. In this event, treatment of ketene-acetal 418 with Bu3SnH afforded good yield of cyclized products 419 and 420, as a mixture of two diastereoisomers, but with a total regioselectivity (Scheme 108). 

Enynes undergo a similar cyclization to alkylidene thioethers on reaction with thiophenol in the presence of AIBN. This cyclization also involves a vinyl radical (equation I).8... 

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